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In C, I have two char arrays:

char array1[18] = "abcdefg";
char array2[18];

How to copy the value of array1 to array2 ? Can I just do this: array2 = array1?

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strcpy or memcpy. – Alok Save May 20 '13 at 8:38
char array1[18] = {"abcdefg"}; is not a proper char array. – aragaer May 20 '13 at 8:39
@aragaer, why not? – Prof. Falken May 20 '13 at 8:40
While it does work as char array (just happens to work) it should either be declared as char array1[18] = "abcdefg"; or char array1[18] = {'a', 'b', 'c', 'd', 'e', 'f', 'g', '\0'}; – aragaer May 20 '13 at 8:43
@aragaer 6.7.9 (14): "An array of character type may be initialized by a character string literal or UTF−8 string literal, optionally enclosed in braces." char array1[18] = {"abcdefg"}; is unusual, but 100% pukka. – Daniel Fischer May 20 '13 at 10:19
up vote 31 down vote accepted

You can't directly do array1 = array2. Because in this case you would manipulate the addresses (char *) of the arrays and not their values.

For this kind of situation, it is recommended to use strncpy to avoid a buffer overflow, especially if array1 is filled from user input (keyboard, network, etc.). Like so:

// Will copy 18 characters from array1 to array2
strncpy(array2, array1, 18);

As @Prof. Falken mentioned in a comment, strncpy can be evil. Make sure your target buffer is big enough to contain the source buffer (including the \0 at the end of the string).

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why we can not just do array2 = array1? – user2131316 May 20 '13 at 9:08
@user2131316: This is because of the way array names are semantically converted into pointer values. I explain this in my answer. – jxh May 20 '13 at 9:23

If you want to guard against non-terminated strings, which can cause all sorts of problems, copy your string like this:

char array1[18] = {"abcdefg"};
char array2[18];

size_t destination_size = sizeof (array2);

strncpy(array2, array1, destination_size);
array2[destination_size - 1] = '\0';

That last line is actually important, because strncpy() does not always null terminate strings. (If the destination buffer is too small to contain the whole source string, sntrcpy() will not null terminate the destination string.)

The manpage for strncpy() even states "Warning: If there is no null byte among the first n bytes of src, the string placed in dest will not be null-terminated."

The reason strncpy() behaves this somewhat odd way, is because it was not actually originally intended as a safe way to copy strings.

Another way is to use snprintf() as a safe replacement for strcpy():

snprintf(array2, destination_size, "%s", array1);

(Thanks user315052 for the tip.)

share|improve this answer
Note that snprintf() does not have the problem that strncpy() does. – jxh May 20 '13 at 8:58
Does't this generate a warning? strncpy accepts const char as source. – kon psych Sep 19 '15 at 20:05
@konpsych that should not generate a warning. – Prof. Falken Sep 19 '15 at 21:49

You cannot assign arrays, the names are constants that cannot be changed.

You can copy the contents, with:

strcpy(array2, array1);

assuming the source is a valid string and that the destination is large enough, as in your example.

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Use memcpy(array1, array2, sizeof(array2)); if your arrays are not strin arrays.

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First argument of memcpy is the destination array, which should be array2! – Bert Regelink Dec 8 '15 at 15:00

As others have noted, strings are copied with strcpy() or its variants. In certain cases, you could use snprintf() as well.

You can only assign arrays the way you want as part of a structure assignment:

typedef struct { char a[18]; } array;
array array1 = { "abcdefg" };
array array2;

array2 = array1;

If your arrays are passed to a function, it will appear that you are allowed to assign them, but this is just an accident of the semantics. In C, an array will decay to a pointer type with the value of the address of the first member of the array, and this pointer is what gets passed. So, your array parameter in your function is really just a pointer. The assignment is just a pointer assignment:

void foo (char x[10], char y[10]) {
    x = y;    /* pointer assignment! */

The array itself remains unchanged after returning from the function.

This "decay to pointer value" semantic for arrays is the reason that the assignment doesn't work. The l-value has the array type, but the r-value is the decayed pointer type, so the assignment is between incompatible types.

char array1[18] = "abcdefg";
char array2[18];
array2 = array1; /* fails because array1 becomes a pointer type,
                    but array2 is still an array type */

As to why the "decay to pointer value" semantic was introduced, this was to achieve a source code compatibility with the predecessor of C. You can read The Development of the C Language for details.

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it should look like this:

void cstringcpy(char *src, char * dest)
    while (*src) {
        *(dest++) = *(src++);

char src[6] = "Hello";
char dest[6];
cstringcpy(src, dest);
share|improve this answer
array2 = array1;

is not supported in c. You have to use functions like strcpy() to do it.

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I recommend to use memcpy() for copying data. Also if we assign a buffer to another as array2 = array1 , both array have same memory and any change in the arrary1 deflects in array2 too. But we use memcpy, both buffer have different array. I recommend memcpy() because strcpy and related function do not copy NULL character.

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